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1、Multiple Regression Analysis,y=b0+b1x1+b2x2+.bkxk+u 2.Inference,Assumptions of the Classical Linear Model(CLM),So far,we know that given the Gauss-Markov assumptions,OLS is BLUE,In order to do classical hypothesis testing,we need to add another assumption(beyond the Gauss-Markov assumptions)Assume t
2、hat u is independent of x1,x2,xk and u is normally distributed with zero mean and variance s2:u Normal(0,s2),CLM Assumptions(cont),Under CLM,OLS is not only BLUE,but is the minimum variance unbiased estimator We can summarize the population assumptions of CLM as follows y|x Normal(b0+b1x1+bkxk,s2)Wh
3、ile for now we just assume normality,clear that sometimes not the case Large samples will let us drop normality,.,.,x1,x2,The homoskedastic normal distribution with a single explanatory variable,E(y|x)=b0+b1x,y,f(y|x),Normaldistributions,Normal Sampling Distributions,The t Test,The t Test(cont),Know
4、ing the sampling distribution for the standardized estimator allows us to carry out hypothesis tests Start with a null hypothesis For example,H0:bj=0 If accept null,then accept that xj has no effect on y,controlling for other xs,The t Test(cont),t Test:One-Sided Alternatives,Besides our null,H0,we n
5、eed an alternative hypothesis,H1,and a significance level H1 may be one-sided,or two-sided H1:bj 0 and H1:bj 0 are one-sided H1:bj 0 is a two-sided alternative If we want to have only a 5%probability of rejecting H0 if it is really true,then we say our significance level is 5%,One-Sided Alternatives
6、(cont),Having picked a significance level,a,we look up the(1 a)th percentile in a t distribution with n k 1 df and call this c,the critical value We can reject the null hypothesis if the t statistic is greater than the critical value If the t statistic is less than the critical value then we fail to
7、 reject the null,yi=b0+b1xi1+bkxik+uiH0:bj=0 H1:bj 0,c,0,a,(1-a),One-Sided Alternatives(cont),Fail to reject,reject,One-sided vs Two-sided,Because the t distribution is symmetric,testing H1:bj than c then we fail to reject the null For a two-sided test,we set the critical value based on a/2 and reje
8、ct H1:bj 0 if the absolute value of the t statistic c,yi=b0+b1Xi1+bkXik+uiH0:bj=0 H1:bj 0,c,0,a/2,(1-a),-c,a/2,Two-Sided Alternatives,reject,reject,fail to reject,Summary for H0:bj=0,Unless otherwise stated,the alternative is assumed to be two-sided If we reject the null,we typically say“xj is stati
9、stically significant at the a%level”If we fail to reject the null,we typically say“xj is statistically insignificant at the a%level”,Testing other hypotheses,A more general form of the t statistic recognizes that we may want to test something like H0:bj=aj In this case,the appropriate t statistic is
10、,Confidence Intervals,Another way to use classical statistical testing is to construct a confidence interval using the same critical value as was used for a two-sided test A(1-a)%confidence interval is defined as,Computing p-values for t tests,An alternative to the classical approach is to ask,“what
11、 is the smallest significance level at which the null would be rejected?”So,compute the t statistic,and then look up what percentile it is in the appropriate t distribution this is the p-value p-value is the probability we would observe the t statistic we did,if the null were true,Stata and p-values
12、,t tests,etc.,Most computer packages will compute the p-value for you,assuming a two-sided test If you really want a one-sided alternative,just divide the two-sided p-value by 2 Stata provides the t statistic,p-value,and 95%confidence interval for H0:bj=0 for you,in columns labeled“t”,“P|t|”and“95%C
13、onf.Interval”,respectively,Testing a Linear Combination,Suppose instead of testing whether b1 is equal to a constant,you want to test if it is equal to another parameter,that is H0:b1=b2 Use same basic procedure for forming a t statistic,Testing Linear Combo(cont),Testing a Linear Combo(cont),So,to
14、use formula,need s12,which standard output does not have Many packages will have an option to get it,or will just perform the test for you In Stata,after reg y x1 x2 xk you would type test x1=x2 to get a p-value for the test More generally,you can always restate the problem to get the test you want,
15、Example:,Suppose you are interested in the effect of campaign expenditures on outcomes Model is voteA=b0+b1log(expendA)+b2log(expendB)+b3prtystrA+u H0:b1=-b2,or H0:q1=b1+b2=0 b1=q1 b2,so substitute in and rearrange voteA=b0+q1log(expendA)+b2log(expendB-expendA)+b3prtystrA+u,Example(cont):,This is th
16、e same model as originally,but now you get a standard error for b1 b2=q1 directly from the basic regression Any linear combination of parameters could be tested in a similar manner Other examples of hypotheses about a single linear combination of parameters:b1=1+b2;b1=5b2;b1=-1/2b2;etc,Multiple Line
17、ar Restrictions,Everything weve done so far has involved testing a single linear restriction,(e.g.b1=0 or b1=b2)However,we may want to jointly test multiple hypotheses about our parameters A typical example is testing“exclusion restrictions”we want to know if a group of parameters are all equal to z
18、ero,Testing Exclusion Restrictions,Now the null hypothesis might be something like H0:bk-q+1=0,.,bk=0 The alternative is just H1:H0 is not true Cant just check each t statistic separately,because we want to know if the q parameters are jointly significant at a given level it is possible for none to
19、be individually significant at that level,Exclusion Restrictions(cont),To do the test we need to estimate the“restricted model”without xk-q+1,xk included,as well as the“unrestricted model”with all xs included Intuitively,we want to know if the change in SSR is big enough to warrant inclusion of xk-q
20、+1,xk,The F statistic,The F statistic is always positive,since the SSR from the restricted model cant be less than the SSR from the unrestricted Essentially the F statistic is measuring the relative increase in SSR when moving from the unrestricted to restricted model q=number of restrictions,or dfr
21、 dfur n k 1=dfur,The F statistic(cont),To decide if the increase in SSR when we move to a restricted model is“big enough”to reject the exclusions,we need to know about the sampling distribution of our F stat Not surprisingly,F Fq,n-k-1,where q is referred to as the numerator degrees of freedom and n
22、 k 1 as the denominator degrees of freedom,0,c,a,(1-a),f(F),F,The F statistic(cont),reject,fail to reject,Reject H0 at a significance level if F c,The R2 form of the F statistic,Because the SSRs may be large and unwieldy,an alternative form of the formula is useful We use the fact that SSR=SST(1 R2)
23、for any regression,so can substitute in for SSRu and SSRur,Overall Significance,A special case of exclusion restrictions is to test H0:b1=b2=bk=0 Since the R2 from a model with only an intercept will be zero,the F statistic is simply,General Linear Restrictions,The basic form of the F statistic will
24、 work for any set of linear restrictions First estimate the unrestricted model and then estimate the restricted model In each case,make note of the SSR Imposing the restrictions can be tricky will likely have to redefine variables again,Example:,Use same voting model as before Model is voteA=b0+b1lo
25、g(expendA)+b2log(expendB)+b3prtystrA+u now null is H0:b1=1,b3=0 Substituting in the restrictions:voteA=b0+log(expendA)+b2log(expendB)+u,so Use voteA-log(expendA)=b0+b2log(expendB)+u as restricted model,F Statistic Summary,Just as with t statistics,p-values can be calculated by looking up the percentile in the appropriate F distribution Stata will do this by entering:display fprob(q,n k 1,F),where the appropriate values of F,q,and n k 1 are used If only one exclusion is being tested,then F=t2,and the p-values will be the same,